I have a problem where I need to map an integer at compile time to another integer. Basically, I need the compile-time equivalent of `std::map<int,int>`

. If a key is not found in the map, I'd like to return a default value.

The interface I'd like to use:

```
template<unsigned int default_value,
unsigned int key0, unsigned int value0,
unsigned int key1, unsigned int value1,
...>
struct static_map
{
...
};
template<unsigned int key, typename StaticMap>
struct lookup
{
static unsigned int value = ...
};
```

`lookup`

returns the value associated with `key`

in the `StaticMap`

. If `key`

is not found, then `default_value`

is returned.

In general, the number of key/value pairs will be bounded by some limit > 2. What is the best way to build `static_map`

and `lookup`

?

I should also mention that I'm limited to using C++03 language constructs, so no C++11, and no external library dependencies.

Here's the solution I arrived at, inspired by n.m. and DyP's answers below:

```
#include <iostream>
template<unsigned int k, unsigned int v>
struct key_value
{
static const unsigned int key = k;
static const unsigned int value = v;
};
template<typename Head, typename Tail = void>
struct cons
{
template<unsigned int key, unsigned int default_value>
struct get
{
static const unsigned int value = (key == Head::key) ? (Head::value) : Tail::template get<key,default_value>::value;
};
};
template<typename Head>
struct cons<Head,void>
{
template<unsigned int key, unsigned int default_value>
struct get
{
static const unsigned int value = (key == Head::key) ? (Head::value) : default_value;
};
};
template<unsigned int default_value,
unsigned int key0, unsigned int value0,
unsigned int key1, unsigned int value1,
unsigned int key2, unsigned int value2,
unsigned int key3, unsigned int value3,
unsigned int key4, unsigned int value4,
unsigned int key5, unsigned int value5,
unsigned int key6, unsigned int value6,
unsigned int key7, unsigned int value7>
struct static_map
{
template<unsigned int key>
struct get
{
typedef cons<
key_value<key0,value0>,
cons<
key_value<key1,value1>,
cons<
key_value<key2,value2>,
cons<
key_value<key3,value3>,
cons<
key_value<key4,value4>,
cons<
key_value<key5,value5>,
cons<
key_value<key6,value6>,
cons<
key_value<key7,value7>
>
>
>
>
>
>
>
> impl;
static const unsigned int value = impl::template get<key,default_value>::value;
};
};
template<unsigned int key, typename StaticMap>
struct lookup
{
static const unsigned int value = StaticMap::template get<key>::value;
};
int main()
{
typedef static_map<13,
0, 0,
1, 10,
2, 20,
3, 30,
4, 40,
5, 50,
6, 60,
7, 70
> my_static_map;
std::cout << "0 maps to " << lookup<0, my_static_map>::value << std::endl;
std::cout << "1 maps to " << lookup<1, my_static_map>::value << std::endl;
std::cout << "2 maps to " << lookup<2, my_static_map>::value << std::endl;
std::cout << "3 maps to " << lookup<3, my_static_map>::value << std::endl;
std::cout << "4 maps to " << lookup<4, my_static_map>::value << std::endl;
std::cout << "5 maps to " << lookup<5, my_static_map>::value << std::endl;
std::cout << "6 maps to " << lookup<6, my_static_map>::value << std::endl;
std::cout << "7 maps to " << lookup<7, my_static_map>::value << std::endl;
std::cout << "100 maps to " << lookup<100, my_static_map>::value << std::endl;
return 0;
}
```